On Monday morning, the new Vulcan rocket made a smashing debut, launching from Cape Canaveral Space Force Station in Florida and performing flawlessly. After 50 minutes of flight, the rocket’s upper stage deployed its primary payload—the Peregrine lunar lander—into a Moon-bound trajectory. United Launch Alliance declared complete success with its new rocket.
After the deployment of the spacecraft, its developer, Pittsburgh-based Astrobotic, also said its ground controllers had successfully established contact with Peregrine. All seemed well as the spacecraft entered a highly elliptical orbit that will bring it toward the Moon in the coming weeks.
However, later on Monday morning, about six hours after liftoff, Astrobotic released an updated statement. While the vehicle’s avionics systems, including the primary command and data handling unit and the thermal, propulsion, and power controllers, had all powered on and performed as expected, there was a problem.
“After successful propulsion systems activation, Peregrine entered a safe operational state,” the company said. “Unfortunately, an anomaly then occurred, which prevented Astrobotic from achieving a stable sun-pointing orientation. The team is responding in real time as the situation unfolds and will be providing updates as more data is obtained and analyzed.”
Batteries are draining
Less than an hour after its initial statement on the anomaly, Astrobotic issued a second update that sounded fairly ominous.
“We continue to gather data and report our best assessment of what we see,” the company said. “The team believes that the likely cause of the unstable sun-pointing is a propulsion anomaly that, if proven true, threatens the ability of the spacecraft to soft land on the Moon.”
Peregrine will need its main engine to control the spacecraft’s descent down to the lunar surface. Based on additional information provided by the company, it appears that time is running out to fix the problem.